Understanding The Mechanism And Significance Of CXCL16-mediated Protection Of Tumour Cells From CTL-induced Apoptosis.
Funder
National Health and Medical Research Council
Funding Amount
$524,520.00
Summary
This research will begin to determine the significance of changes in the amount of a recently-discovered protein on the surface of tumour cells. We have shown that an increase in expression of this protein protects tumour cells from destruction by our immune system's killer T cells. The outcome of this research could lead to a better understanding of how the immune system recognises and kills tumour cells, and ultimately, alternate vaccine strategies for tumours.
CTL Avidity As A Determinant Of The Mature, Antigen-specific Immune Repertoire
Funder
National Health and Medical Research Council
Funding Amount
$241,527.00
Summary
Killer T lymphocytes are a diverse population which vary in their ability to recognise infected cells. This study aims to determine whether vaccine dose and frequency impact on the generation of highly sensitive killer T cells. This study will improve our basic knowledge of killer T lymphocyte selection during infection and have application to improved methods of vaccination.
Studies On The Role Of The P101 Component Of The Class 1B PI 3-Kinase In Cell Migration And Activation.
Funder
National Health and Medical Research Council
Funding Amount
$457,267.00
Summary
This research will determine the biological role of a protein of unknown function that is likely to participate in movement of white blood cells through the body. The outcome of this research will increase our basic knowledge of how the immune system functions and could lead to alternate therapeutic strategies for the control of autoimmune diseases.
Epigenetic Regulation Of CD8+ T Cell Function And Memory.
Funder
National Health and Medical Research Council
Funding Amount
$578,171.00
Summary
Upon virus infection, a subset of white blood cells, called killer T cells, are recruited to fight the infection. This proposal aims to examine molecular changes that occur within killer T cells and impart their specific function. We also aim to understand how killer T cells are _programmed� as they establish immunological memory. This proposal will provide insights important for the design and improvement of vaccine strategies to fight pathogens such as influenza, HIV and even tumors.
Optimising Immunity Towards Cancers By Vaccination.
Funder
National Health and Medical Research Council
Funding Amount
$211,320.00
Summary
In this project we will be studying the mechanisms of how an efficient anti cancer vaccine could be generated. We will be using cervical cancer associated human papillomavirus type 16 E7 protein as the model protein in an experimental vaccine model in mice. The results obtained from this project not only able us to design better vaccines against cervical cancers in women but against many other cancers and viruses.
Effector And Memory CD8+ T Cell Responses To Engineered Influenza A Escape Mutants
Funder
National Health and Medical Research Council
Funding Amount
$465,210.00
Summary
T cells are a critical component of the immune system after infection with viruses. In particular, virus-specific CD8+ T cells can clear viral infections by killing virally-infected cells and the release of immunomodulators. These are called effector T cells. After the viral infection is cleared, a small proportion of T cells (around 5 to 10%) survives for many years and constitute a memory pool of virus-specific T cells. Memory T cells provide a rapid and effective protection in case of a repea ....T cells are a critical component of the immune system after infection with viruses. In particular, virus-specific CD8+ T cells can clear viral infections by killing virally-infected cells and the release of immunomodulators. These are called effector T cells. After the viral infection is cleared, a small proportion of T cells (around 5 to 10%) survives for many years and constitute a memory pool of virus-specific T cells. Memory T cells provide a rapid and effective protection in case of a repeated infection with the same virus, and hence result in a less severe disease. However, viruses often mutate their genes to escape such efficient T cell responses. In this study, we will investigate T cell responses after infection with mutated strains of influenza viruses. We will engineer a panel of mutant influenza viruses, which alter the nature and characteristics of T cells. We will analyse how efficient are these T cells and whether they can protect against a normal strain of influenza A. Subsequently, we will characterise quantitative and qualitative aspects of memory T cell pools after infection with mutant influenza viruses. Since a number of viruses such as influenza, HIV and HCV rapidly mutate their genes, our study will not only address the question of T cell responses to mutated influenza viruses, but also will provide an excellent model for investigating protective T cell responses to other viral infections.Read moreRead less
Antigen Dose And TCR Repertoire In CD8+ T Cell Immunodominance Hierarchies
Funder
National Health and Medical Research Council
Funding Amount
$558,920.00
Summary
The CD8+, or killer , T lymphocytes (white blood cells) are the hit men of immunity, recirculating continually around the body to eliminate other cells that are dangerous because they are cancerous or infected with a virus. A major difficulty is that killer T cells also exert selective pressures that cause viruses and tumours to mutate and thus avoid immune control. This is a particularly serious problem for RNA viruses that readily mutate as they divide. These include the human immunodeficiency ....The CD8+, or killer , T lymphocytes (white blood cells) are the hit men of immunity, recirculating continually around the body to eliminate other cells that are dangerous because they are cancerous or infected with a virus. A major difficulty is that killer T cells also exert selective pressures that cause viruses and tumours to mutate and thus avoid immune control. This is a particularly serious problem for RNA viruses that readily mutate as they divide. These include the human immunodeficiency virus (HIV) that causes AIDS and, while the mutations that are most important with influenza viruses are those that modify viral surface proteins recognized by antibodies, such T cell escape mutants can also be a problem with influenza. The other reason why there is particular interest in promoting CD8+ T cell-mediated immunity to influenza is that the killer T cells are very cross-reactive. We have shown that vaccination approaches that prime mouse CD8+ T cells to resist influenza A viruses circulating currently in humans will also protect against the highly lethal, and dangerous H5N1 bird 'flu. The present flu vaccines only stimulate antibodies, so there is interest in the possibility of a major re-design. The CD8+ T cells recognize tiny elements (peptides) of the virus or tumour bound in the tip of our own transplantation, or class I major histocompatibility complex (MHCI) molecules. These pMHCI complexes are called epitopes. The focus here is on the use of novel genetic engineering strategies to find out how, when the virus mutates to disrupt the major epitopes seen by killer T cells, other minor epitopes can be abnormally emphasized in a way that promotes effective immune control. As we work on this with the relatively simple and safe influenza model we will concurrently develop strategies that may be of value in HIV and tumour immunity. Solving this problem could prove to be a substantial advance in the design of vaccines and immunotherapy approaches.Read moreRead less
Control Of The Antigen-specific Cytotoxic T Cell Memory Response
Funder
National Health and Medical Research Council
Funding Amount
$95,044.00
Summary
Individuals who survive infections by a given pathogenic micro-organism are usually protected from subsequent infections by these same agents. This is the basis of adaptive immunity, which defines the body's ability to maintain a memory of prior infection or vaccination and in so doing, mount a far more effective response to subsequent infection by these agents. This proposal deals with the mechanisms by which this memory is maintained. It specifically focuses on cytotoxic T lymphocytes (CTL) wh ....Individuals who survive infections by a given pathogenic micro-organism are usually protected from subsequent infections by these same agents. This is the basis of adaptive immunity, which defines the body's ability to maintain a memory of prior infection or vaccination and in so doing, mount a far more effective response to subsequent infection by these agents. This proposal deals with the mechanisms by which this memory is maintained. It specifically focuses on cytotoxic T lymphocytes (CTL) which are leucocytes or white blood cells that kill virus infected cells. Using new technology which permits visualisation of CTL directed against specific viruses we are going to define what determines the survival and replacement of these memory cells over time. We will also identify the agents that alter the memory CTL's ability to deal with infections within localised sites in the body. In so doing, this work will provide valuable insight into approaches that can be used to better vaccinate individuals against infections by pathogenic viruses.Read moreRead less